The Massachusetts Audubon Society will develop, pilot, and implement an evaluation framework for nature-based STEM programming that serves K-12 students visiting its network of nature centers and museums. Working with an external consultant, the society will develop the framework comprised of a logic model and theory of change for fieldtrips, and develop a toolkit of evaluation data collection methodology suitable to various child development stages. The project team will design and conduct three professional development training seminars to help Massachusetts Audubon school educators develop a working understanding of the new evaluation framework for school programs and gain the skills necessary to support protocol implementation. This project will result in the development and adoption of a universal protocol to guide the collection, management, and reporting of education program evaluation data across the 19 nature centers and museums in the Massachusetts Audubon system.
The Habitot Children's Museum will renovate its Rocketship and Mission Control exhibition to increase functionality, making it more accessible and interactive for parents, caregivers, and children. With input from the community and a professional advisory group of museum professionals, early learning specialists, space scientists and parents, the museum will refurbish, update, and improve exhibition access for children with special needs by completing previously identified universal design requirements; adding interactive components that support young children's need for open-ended, play-based experiences to build strong STEM learning foundations; and addressing adult visitors' needs to have defined roles in exhibition spaces to better engage with their children. A customized, observation-based evaluation tool will be used to measure the identified project outcomes.
The STEAM Para Todos project will transform a prominent exhibit in the Marbles Kids Museum into a vibrant space that fosters culturally relevant STEAM learning and exploration for all museum visitors, particularly the growing Hispanic, dual-language learner population in Wake County, N.C. The three-year project will involve research, testing, design, installation, and evaluation. The museum will work with the school system, STEM partners, the local arts community, and organizations engaged with the Hispanic community to develop the exhibit. Guiding the project will be a community of practice, comprised of museum professionals; researchers with expertise in STEAM education, dual language learners, and culturally responsive informal learning; partners from STEM businesses; creative arts organizations; the Wake County Public School System; and stakeholders from the exhibit's intended audience. Project partners include Wake County Public School System, Que Pasa, US2020, Visual Arts Exchange, North Carolina Society of Hispanic Professionals, and Google Fiber.
Hero Elementary is a transmedia educational initiative aimed at improving the school readiness and academic achievement in science and literacy of children grades K-2. With an emphasis on Latinx communities, English Language Learners, youth with disabilities, and children from low-income households, Hero Elementary celebrates kids and encourages them to make a difference in their own backyards and beyond by actively doing science and using their Superpowers of Science. The project embeds the expectations of K–2nd NGSS and CCSS-ELA standards into a series of activities, including interactive games, educational apps, non-fiction e-books, hands-on activities, and a digital science notebook. The activities are organized into playlists for educators and students to use in afterschool programs. Each playlist centers on a meaningful conceptual theme in K-2 science learning.
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TEAM MEMBERS:
Joan FreeseMomoko HayakawaBryce Becker
Increasing demand for curricula and programming that supports computational thinking in K-2 settings motivates our research team to investigate how computational thinking can be understood, observed, and supported for this age group. This study has two phases: 1) developing definitions of computational thinking competencies, 2) identifying educational apps that can potentially promote computational thinking. For the first phase, we reviewed literatures and models that identified, defined and/or described computational thinking competencies. Using the model and literature review, we then
For the past two decades, researchers and educators have been interested in integrating engineering into K-12 learning experiences. More recently, computational thinking (CT) has gained increased attention in K-12 engineering education. Computational thinking is broader than programming and coding. Some describe computational thinking as crucial to engineering problem solving and critical to engineering habits of mind like systems thinking. However, few studies have explored how computational thinking is exhibited by children, and CT competencies for children have not been consistently defined
Computational Thinking (CT) is a relatively new educational focus and a clear need for learners as a 21st century skill. This proposal tackles this challenging new area for young learners, an area greatly in need of research and learning materials. The Principal Investigators will develop and implement integrated STEM+C museum exhibits and integrate CT in their existing engineering design based PictureSTEM curriculum for K-2 students. They will also pilot assessments of the CT components of the PictureSTEM curriculum. This work will make a unique contribution to the available STEM+C learning materials and assessments. There are few such materials for the kindergarten to second grade (K-2) population they will work with. They will research the effects of the curriculum and the exhibits with a mixed methods approach. First, they will collect observational data and conduct case studies to discover the important elements of an integrated STEM+C experience in both the formal in-school setting with the curriculum and in the informal out-of-school setting with families interacting with the museum exhibits. This work will provide a novel way to understand the important question of how in- and out-of-school experiences contribute to the development of STEM and CT thinking and learning. Finally, they will collect data from all participants to discover the ways that their activities lead to increases in STEM+C knowledge and interest.
The Principal Investigators will build on an integrated STEM curriculum by integrating CT and develop integrated museum exhibits. They base both activities on engineering design implemented through challenge based programming activities. They will research and/or develop assessments of both STEM+C integrated thinking and CT. Their research strategy combines Design Based Research and quantitative assessment of the effectiveness of the materials for learning CT. In the first two years of their study, they will engage in iterations on the design of the curriculum and the exhibits based on observation and case-study data. There will be 16 cases that draw from each grade level and involve data collection for the case student in both schools and museums. They will also use this work to illuminate what integrated STEM+C thinking and learning looks like across formal and informal learning environments. Based in some part on what they discover in this first phase, they will conduct the quantitative assessments with all (or at least most) students participating in the study
The aim of this review of the literature is to identify what we already know about the engagement of children aged under eight in makerspaces. Given the limited literature in the area, the review takes a broader look at makerspaces for older children where relevant. This is not a systematic review; its aim is not to offer an exhaustive account of all of the research conducted in the area. Rather, this narrative review provides an introduction to key aspects of research on makerspaces and enables the identification of themes dominant in the field, and those areas where more research is needed
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TEAM MEMBERS:
Jackie MarshKristiina KumpulainenBobby NishaAnca VelicuAlicia Blum-RossDavid HyattSvanborg JónsdóttirRachael LevySabine LittleGeorge MarusteruMargrét Elísabet ÓlafsdóttirKjetil SandvikFiona ScottKlaus ThestrupHans Christian ArnsethKristín DýrfjörðAlfredo JornetSkúlína Hlíf KjartansdóttirKate PahlSvava PétursdóttirGísli ThorsteinssonUniversity of Sheffield
Reconceptualizing STEM + Computing Literacy is funded by the STEM+Computing Partnership (STEM+C) program, which seeks to advance multidisciplinary integration of computing and computational thinking in K-12 science, technology, engineering, and mathematics (STEM) teaching and learning through applied research and development across one or more domains, and broadening participation in computing and computing-related fields. The project will study the integration of computational thinking as part of a new and more contemporary perspective of STEM literacy, and will design, develop, and beta-test a prototype literacy assessment tool that will measure computational thinking literacy along with measures of literacy in other STEM content areas. The tool will be available to the general public as a self-measurement application (App) that can be used by individuals to test their own literacy, and by teachers, schools, and informal educators and organizations to assess literacy development in their students and in their STEM education programs. This transdisciplinary research project will begin the process of creating an innovative approach and tool for measuring literacy that will expand the definition of literacy to include computational skills along with science reasoning. Literacy is an important concept and measurement that has traditionally been used to assess an individual's knowledge of science. This project will explore a broader literacy perspective that incorporates learning derived from out of school and one that incorporates computational skills and thinking as part of a more contemporary perspective of STEM literacy. A prototype web-based App allowing individuals and education organizations to assess literacy levels, and ways to enhance literacy, will be developed and studied. The methodology will be developed using discussions and knowledge from over 60 experts across computing, education, science, social science, and other STEM fields using a Delphi method to engage in reconceptualization of literacy. The hypothesis is that this new STEM+C literacy framework should be structured along four interacting but semi-independent domains: 1) general STEM+C knowledge; 2) self-defined areas of STEM+C knowledge and expertise; 3) attitudes and beliefs related to STEM+C; and 4) the skills and competencies necessary to participate in STEM+C related pursuits and discussions, including measures of modes of STEM+C thinking. Each of these four domains is likely to include numerous sub-domains and associated descriptors, which collectively describe the different aspects of being a STEM+C literate citizen. The application will be designed to provide feedback to individuals on their knowledge, attitudes and skills compared with those of others and suggest ways to enhance and improve their skills and understanding through an embedded feedback mechanism. This project creates public benefit by providing individuals and organizations with a responsive real-time understanding measuring STEM+C literacy, deepening the dialogue about the value of public engagement in science, engineering, technology, math and computing and revealing the dynamic factors that inform STEM+C literacy.
Ruff Family Science is an exploratory project funded by the National Science Foundation (NSF) that aims to foster joint media engagement and hands-on science exploration among diverse, low-income parents and their 4- to 8-year-old children. Building on the success of the PBS series FETCH! with Ruff Ruffman, the project leverages FETCH’s funny and charismatic animated host, along with its proven approach to teaching science, to inspire educationally disadvantaged families to explore science together. More specifically, the project is undertaking a research and design process to create prototype
The Association of Science-Technology Centers (ASTC) aims to help member institutions inform and educate the public about science through a global lens. The World Biotech Tour (WBT) was a three-year initiative designed to not only promote a greater understanding of biotechnology through public outreach and programming led by science centers and museums, but also as an opportunity for ASTC to collect useful data on the resources required and challenges encountered at different science museums around the world when implementing a long-term, multi-country program. The WBT involved students
Integrating Science Into Afterschool: A Three-Dimensional Approach To Engaging Underserved Populations In Science, or STEM 3D, was a five year project led by The Franklin Institute. The project was created with three major goals: to (1) increase youth engagement in hands-on, inquiry based, science projects; (2) cultivate intergenerational/parental support for science learning; and (3) evaluate the effectiveness of this 3-D (afterschool, home, and community) approach in engaging children, families, afterschool facilitators, and community-based organizations in science learning and the promotion